A respiratory care system includes a user interface. A flow indicator is movable in response to inhalation and/or exhalation, or both, by a user through the user interface. An electronic indicator is operable in response to an electronic signal transmitted in response to the movement of the floe indicator. Methods of use and assembly are also provided.

The split airflow system for an electrically heated smoking system for generating aerosol, the split airflow system having a downstream end comprises a first channel defining a first flow route and a second channel defining a second flow route. The first flow route directs ambient air from outside the system to the downstream end of the system. The second flow route directs ambient air from outside the system towards a preferably substantially flat, fluid permeable, heating element before conveying the ambient air to the downstream end. The first channel and the second channel define a total volume of ambient air passing through the system and the first channel provides at least 50 percent of the total volume of ambient air passing through the system. The invention also refers to a method for guiding an airflow in an electrically heated smoking system for generating aerosol and an electrically heated smoking system comprising the split airflow system.

The invention relates to an aerosol delivery device (A) comprising an aerosol generator for generating an aerosol in the aerosol delivery device (A). The aerosol generator comprises a membrane (1) and a vibrator (7) which is configured to vibrate a fluid (3) and to aerosolise the fluid (3) by the membrane (1). The aerosol delivery device (A) further comprises a fluid reservoir (2) for receiving the fluid (3) to be aerosolised, wherein the fluid reservoir (2) is arranged in fluid communication with the membrane (1). Moreover, the aerosol delivery device (A) comprises a controller (10) which is configured to operate the vibrator (7) so as to vibrate the fluid (3), a temperature sensor (13) which is configured to detect a temperature of the vibrator (7) and/or the membrane (1), and a detector (13a) which is configured to detect the presence of fluid (3) in contact with the membrane (1) and/or in the fluid reservoir (2) on the basis of the temperature of the vibrator (7) and/or the membrane (1) detected by the temperature sensor (13). Further, the invention relates to a method of operating such an aerosol delivery device (A).

An example accessory for an inhaler includes: a housing to couple to the inhaler; an accelerometer disposed in the housing, the accelerometer to obtain (i) motion data representing motion of the inhaler and (ii) orientation data representing an orientation of the inhaler; a microphone disposed in the housing, the microphone to obtain audio data for determining an inhalation rate of a user of the inhaler; a force sensor disposed in the housing, the force sensor to obtain force data representing force applied to the accessory; a communications interface disposed in the housing; a memory disposed in the housing; and a processor disposed in the housing, the processor interconnected with the communications interface and the memory the processor to: detect actuation of the inhaler based on the force data applied to the accessory; and generate dosage administration data based on the motion data, the orientation data and the audio data.

An inhalant dispensing system is provided, comprising an inhalant delivery apparatus having a main body, a lower body coupled to the main body and comprising a mouthpiece, and an inhalant delivery mechanism disposed within the main body and configured to deliver an aerosolized solution to the mouthpiece for user inhalation; and a lock out system configured to selectively prevent delivery of the aerosolized solution to the mouthpiece. The inhalant delivery apparatus may be assembled by inserting a portion of the inhalant delivery mechanism into the main body. The lower body may be rotatably coupled to the main body and moveable between a dispensing position and a storage position. The system may be used to control and monitor dosages of a solution contained within a smart canister and administered from the canister via an inhaler, to prevent accidental or unwanted usage of the canister and/or over-dosing.

There is provided in accordance with an exemplary embodiment of the invention, a device and a method for controlled extraction of at least one active substance from at least one type of plant matter by application of heat, the device comprising: a heating element adapted to apply heat to an area of the plant matter to extract the substance; and a mechanism adapted for moving the plant matter relative to the heating element. Optionally, the active substance is a restricted substance. There is also provided in accordance with an exemplary embodiment of the invention, a method of monitoring and controlling inhalation of a restricted substance. There is provided in accordance with an exemplary embodiment of the invention, a method of manufacturing a tape of plant matter comprising an active substance.

An inhaler includes a mouth-piece cover, a pressure sensor, a first indicator and a second indicator. The first indicator may be configured to indicate based on a state of the cover, and the second indicator may be configured to indicate based on an output of the pressure sensor. For example, when the mouthpiece cover opens, the first indicator may illuminate and a dose of medication may be transferred from a reservoir to a dosing cup. The second indicator may illuminate if an amount of inhaled medication reaches a predetermined threshold for successful inhalation.

Some embodiments are directed to a compliance monitor for monitoring patient usage of a dry powder medicament delivery device, including a store of medicament housed within a main body portion, and a base portion which is rotatable with respect to the main body portion. The medicament delivery device also includes a medicament dispensing means for dispensing a dose of medicament into an inhalation chamber, a mouthpiece through which the dose of medicament may be inhaled by a user, and a replaceable cap. The compliance monitor includes a first portion for receiving and/or retaining the base portion of the medicament delivery device, and a second portion for releasably securing the medicament delivery device to the first portion. The arrangement and construction is such that the fitting of the second portion of the compliance monitor to the first portion of the compliance monitor does not include a screw fit.

According to at least one example embodiment, a controller for an e-vaping device includes a movement sensor configured to detect movement of the e-vaping device and output an output signal based on the movement. The controller includes control circuitry configured to control power supplied to power consuming elements of the e-vaping device based on the output signal.

A method for controlling a vaporizer device may include determining a first temperature, vaporizing an inhalable substance at the first temperature, raising the first temperature by a temperature quantity, wherein a second temperature is a sum of the temperature quantity and the first temperature; and vaporizing the inhalable substance at the second temperature, wherein the temperature quantity is less than 3° C.